<h4>Tool</h4><table border="0"><tr><td valign="top"><b>Name</b></td><td valign="top">IHACRES Version 1.0</td></tr><tr><td valign="top"><b>ID</b></td><td valign="top">1</td></tr><tr><td valign="top"><b>Author</b></td><td valign="top">copyrights (c) 2008 Stefan Liersch</td></tr></table><hr><h4>Description</h4>The Rainfall-Runoff Model IHACRES 
 
 
Reference: 
 
Jakeman, A.J. / Hornberger, G.M. (1993). 
How Much Complexity Is Warranted in a Rainfall-Runoff Model? 
Water Resources Research, (29), NO. 8 (2637-2649) 
 
Croke, B. F. W. et al.(2004).
A dynamic model for predicting hydrologic response to land cover changes in gauged and ungauged catchments. 
Journal Of Hydrology 291(1-2): 115-131.<hr><h4>Parameters</h4><table border="1" width="100%" valign="top" cellpadding="5" rules="all"><tr><th>Name</th><th>Type</th><th>Identifier</th><th>Description</th><th>Constraints</th></tr>
<tr><th colspan="5">Input</th></tr><tr><td>Table </td><td>Table (input)</td><td>TABLE</td><td></td><td></td></tr><tr><th colspan="5">Output</th></tr><tr><td>Table (*)</td><td>Data Object (optional output)</td><td>TABLEout</td><td></td><td></td></tr><tr><td>Table (*)</td><td>Data Object (optional output)</td><td>TABLEparms</td><td></td><td></td></tr><tr><td>Table (*)</td><td>Data Object (optional output)</td><td>TABLEsettings</td><td></td><td></td></tr><tr><th colspan="5">Options</th></tr><tr><td>Date Column</td><td>Table field</td><td>DATE_Field</td><td>Select the column containing the Date</td><td></td></tr><tr><td>Streamflow Column</td><td>Table field</td><td>DISCHARGE_Field</td><td>Select the Column containing Discharge Values</td><td></td></tr><tr><td>Precipitation Column</td><td>Table field</td><td>PCP_Field</td><td>Select the Column containing precipitation Values</td><td></td></tr><tr><td>Temperature Column</td><td>Table field</td><td>TMP_Field</td><td>Select the Column containing Temperature Values</td><td></td></tr><tr><td>Using temperature data?</td><td>Boolean</td><td>USE_TMP</td><td>If checked, then temperature data are used.</td><td>Default: 1</td></tr><tr><td>Area of the Watershed in [km2]</td><td>Floating point</td><td>AREA</td><td>Area of the Watershed in [km2] used for unit conversion</td><td>Minimum: 0.000010
Default: 100.000000</td></tr><tr><td>Parameter (c)</td><td>Floating point</td><td>CFAC</td><td>Parameter (c) to fit streamflow volume</td><td>Minimum: 0.000000
Maximum: 1.000000
Default: 0.001000</td></tr><tr><td>(Tw) wetness decline time constant</td><td>Floating point</td><td>TwFAC</td><td>Tw is approximately the time constant, or inversely,the rate at which the catchment wetness declines in the absence of rainfall</td><td>Minimum: 0.010000
Maximum: 150.000000
Default: 1.000000</td></tr><tr><td>Storage</td><td>Choice</td><td>STORAGE</td><td></td><td>Available Choices:
[0] Single Storage
[1] Two Parallel Storages
[2] Two Storages in Series !!! not yet implemented !!!
Default: 0</td></tr><tr><td>IHACRES Version</td><td>Choice</td><td>IHACVERS</td><td></td><td>Available Choices:
[0] Jakeman & Hornberger (1993)
[1] Croke et al. (2005)
Default: 0</td></tr><tr><td>Using the snow-melt module?</td><td>Boolean</td><td>SNOW_TOOL</td><td>If checked, snow-melt module is used.</td><td>Default: 0</td></tr><tr><td>Write all calculated Time Series in a table?</td><td>Boolean</td><td>WRITEALL_TS</td><td>If checked, then a second output table with all Time Series data is created.</td><td>Default: 1</td></tr></table>(*) <i>optional</i>